G. M. Neely scite author profile

G. M. Neely

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4Publications

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Glenn Research Center

Publications

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Parametric Study of Flame Radiation Characteristics of a Tubular-Can Combustor

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1983

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A series of combustor tests were conducted with a tubular-can combustor to study flame radiation characteristics and effects with parametric variations in combustor operating conditions. Two alternate combustor assemblies using a different fuel nozzle were compared. Spectral and total radiation detectors were positioned at three stations along the length of the combustor can. Data were obtained for a range of pressures from 0.34 to 2.07 MPa (50 to 300 psia), inlet temperatures from 533 to 700K (500 to 800°F), for Jet A (13.9% hydrogen) and ERBS (12.9% hydrogen) fuels, and with fuel-air ratios nominally from 0.008 to 0.021. Spectral radiation data, total radiant heat flux data, and liner temperature data are presented to illustrate the flame radiation characteristics and effects in the primary, secondary, and tertiary combustion zones.

Flame radiation and linear heat transfer in a tubular-can combustor

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1985

Journal of Propulsion and Power

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Flame radiation and linear heat transfer in a tubular can combustor

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1984

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Accelerated convergence for incompressible flow calculations

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1985

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Abstracttit turbulent viscosity N LL Two improved Algorithms which solve the steady-state Nav i er-Stokes equations, PISO and SIMPLER, are studied in this paper. Computations were carried out on progressively finer grids for the driven cavity and flow over a backward-facing step. The effects of relaxation factor, number of grid nodes and number of sweeps through the pressure equations are studied to evaluate the performance of the PISO and SIMPLER schemes. Results show that these improved schemes accelerate the convergence rate of the solution generally by a factor of two as compared to the SIMPLE method.

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